Missing Data Imputation under Manifold Hypothesis
Abstract
The manifold hypothesis posits that high-dimensional data are concentrated near a low-dimensional embedded manifold.
Recent advances in mixture variational autoencoders (VAEs) provide a powerful tool for extracting such underlying structure in a faithful manner.
The resulting geometric structure naturally introduces local and global relationships among variables, thereby providing a systematic way of imputing missing data.
We propose a model-based imputation method that enables sampling from \( p(\bm{x}_{\mathrm{mis}} \mid \bm{x}_{\mathrm{obs}}) \) via a sampling-importance-resampling (SIR) procedure, which can be further augmented with a joint diffusion model in the latent space.
Our method imputes missing data while respecting the underlying geometry, achieves competitive performance compared to state-of-the-art procedures, quantifies uncertainty in the imputations, and is model-based, thereby enabling on-the-fly imputation without rerunning the entire procedure.
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